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Direction Determination of Directional Ground Element with Negative Sequence Values
Figure 2-32
shows the treatment of the reference voltage for the directional ground element using the nega-
tive sequence values based on a single-phase ground fault in phase A. As reference voltage, the negative
sequence voltage is used, as current for the direction determination, the negative sequence system in which
the fault current is displayed. The fault current -3Ι
the voltage 3V
2
TION ANGLE. In this case, a rotation of -45°.
[7sj6x_drehung-referenzspannung-erde-gegensys-220904-he, 1, en_US]
Figure 2-32
The forward area is a range of ±86° around the rotated reference voltage V
sequence system current -3Ι
Reverse Interlocking for Double End Fed Lines
2.3.9
Application Example
The directionality feature of the directional overcurrent protection enables the user to perform reverse inter-
locking also on double end fed lines using relay element 67-1. It is designed to selectively isolate a faulty line
section (e.g. sections of rings) in high speed, i.e. no long graded times will slow down the process. This
scheme is feasible when the distance between protective relays is not too great and when pilot wires are avail-
able for signal transfer via an auxiliary voltage loop.
For each line, a separate data transfer path is required to facilitate signal transmission in each direction. When
implemented in a closed-circuit connection, disturbances in the communication line are detected and
signalled with time delay. The local system requires a local interlocking bus wire similar to the one described
in Subsection "Reverse Interlocking Bus Protection" for the directional overcurrent protection (Section
2.2 Overcurrent Protection 50, 51, 50N,
During a line fault, the device that detects faults in forward (line) direction using the directional relay element
67-1 will block one of the non-directional overcurrent elements (50-1, 50-TOC) of devices in the reverse direc-
tion (at the same busbar) since they should not trip
regarding the fault direction. "Forward" messages are issued when the current threshold of the directional
relay element 67-1 is exceeded and directional determination is done. Subsequently, "forward" messages are
transmitted to the device located in reverse direction.
During a busbar fault, the device that detects faults in reverse (busbar) direction using the directional relay
element 67-1 will block one of the non-directional overcurrent elements (50-1, 50-TOC) of devices at the
opposite end of the same feeder. In addition, a "Reverse" message is generated and transmitted via the auxil-
iary voltage loop to the relay located at the opposite end of the line.
SIPROTEC 4, 7SJ62/64, Manual
C53000-G1140-C207-8, Edition 08.2016
by the fault angle ϕ
. The reference voltage is rotated through the setting value 1619 ROTA-
sc
Rotation of the reference voltage, directional ground element with negative sequence values
is in this area, the device detects forward direction.
2
51N).
2.3 Directional Overcurrent Protection 67, 67N
is in phase opposition to the fault current Ι
2
ref, rot
(Figure
2-33). In addition, a message is generated
Functions
and follows
scA
. If the vector of the negative
97
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